KR101190908B1 - Method for a heterogeneous wireless ad hoc mobile service provider - Google Patents

Abstract

The ad hoc service provider includes a user interface. The ad hoc service provider is configured to allow a user to access the network wirelessly through the user interface and to provide a wireless access point to the network for mobile clients authenticated by the server.

Description

METHOD FOR A HETEROGENEOUS WIRELESS AD HOC MOBILE SERVICE PROVIDER}

The present invention relates generally to telecommunications and, more particularly, to a method for heterogeneous wireless ad-hoc mobile Internet access services.

Wireless telecommunication systems are widely deployed to provide customers with a variety of services such as telephony, data, video, audio, messaging, broadcasts, and the like. These systems continue to evolve as market forces push wireless telecommunications to new heights. Today, wireless networks provide broadband Internet access to mobile subscribers across local, national, or even global areas. Such networks are sometimes referred to as wireless wide area networks (WWANs). WWAN operators generally provide their subscribers with wireless access plans, such as subscription plans, at a monthly fixed rate.

Access to WWANs from all mobile devices may not be possible. Some mobile devices may not have a WWAN radio. Other mobile devices with other WWAN radios may not enable the subscriber plan. Ad-hoc networking allows mobile devices to dynamically connect over wireless interfaces using protocols such as WLAN, Bluetooth, UWB or other protocols. Methodology for allowing a user of a mobile device without WWAN access to dynamically subscribe using wireless ad hoc networking between mobile devices belonging to two users to a wireless access service provided by a user having a WWAN-enabled mobile device. There is a need in the art for.

In one aspect of the invention, an ad hoc service provider is configured to provide a user interface, and a user to wirelessly access a network via the user interface, wherein the processing system is configured to be a mobile client authenticated by a server. And further configured to provide a wireless access point for.

In another aspect of the present invention, an ad hoc service provider includes a user interface, means for allowing a user to wirelessly access a network through the user interface, and a wireless access point for the network with a mobile client authenticated by a server. Means for providing a.

In another aspect of the present invention, a method of providing a service from an ad hoc service provider having a user interface comprises allowing a user to wirelessly access a network via the user interface, and the mobile client authenticated by a server. Providing a wireless access point for the network.

In another aspect of the present invention, a method of providing a service from an ad hoc service provider having a user interface comprises allowing a user to wirelessly access a network via the user interface, and the mobile client authenticated by a server. Providing a wireless access point for the network.

It is understood from the following detailed description that other embodiments of the invention will be apparent to those skilled in the art, where the various embodiments of the invention are shown and described by way of example. As will be achieved, the invention is capable of several other and different embodiments, some of which may be modified in various aspects, all of which do not depart from the spirit and scope of the invention. Accordingly, the drawings and detailed description are to be regarded in an illustrative rather than a restrictive sense.

1 is a conceptual block diagram illustrating an example of a telecommunications system.
2 is a conceptual block diagram illustrating an example of the functionality of an ad hoc service provider.
3 is a conceptual block diagram illustrating an example of a hardware configuration for an ad hoc service provider.
4 is a conceptual block diagram illustrating an example of the functionality of a processing system in an ad hoc service provider.

The detailed description set forth below in connection with the appended drawings is intended as a description of various configurations of the invention and is not intended to represent a unique configuration in which the invention may be implemented. The detailed description includes specific details for the purpose of providing a thorough understanding of the present invention. However, it will be apparent to one skilled in the art that the present invention may be practiced without these specific details. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the present invention.

1 is a conceptual block diagram illustrating an example of a telecommunications system. The telecommunications system 100 is shown using multiple WWANs that provide mobile subscribers with broadband access to the network 102. Network 102 may be a packet-based network such as the Internet or some other suitable network. For clarity of representation, two WWANs 104 are shown with a backhaul connection to the Internet 102. Each WWAN 104 may be implemented with a number of fixed-site base stations distributed across a geographic area. The geographic area may be subdivided into smaller areas, commonly known as cells. Each base station may be configured to serve all mobile subscribers within a separate cell. A base station controller (not shown) can be used to manage and coordinate base stations within the WWAN 104 and to support backhaul connections to the Internet 102.

Each WWAN 104 may use one of many different radio access protocols to support radio communication with mobile subscribers. For example, one WWAN 104 may support Evolution-Data Optimized (EV-DO) while the other WWAN 104 may support Ultra Mobile Broadband (UMB). EV-DO and UMB are wireless interface standards published by the 3rd Generation Partnership Project 2 (3GPP2) as part of the CDMA2000 family of standards, and multiple, such as code division multiple access (CDMA), to provide broadband Internet access to mobile subscribers. Use connection techniques. Alternatively, one of the WWANs 104 is Long Term LTE, a project in 3GPP2 to improve the Universal Mobile Telecommunications System (UMTS) mobile phone standard based primarily on a wideband CDMA (W-CDMA) air interface. Evolution). In addition, one of the WWANs 104 may support the WiMAX standard developed by the WiMAX Forum. The actual radio access protocol adopted by the WWAN for any particular telecommunications system will depend on the overall design constraints imposed on the particular application and system. The various techniques provided throughout this specification are equally applicable for any combination of heterogeneous or homogeneous WWANs regardless of the radio access protocols used.

Each WWAN 104 has a number of mobile subscribers. Each subscriber may have a mobile node 106 that can access the Internet 102 directly through the WWAN 104. In the telecommunication system of FIG. 1, these mobile nodes 106 access WWAN 104 using EV-DO, UMB, or LTE radio access protocol, but in actual implementation, these mobile nodes 106 May be configured to support any radio access protocol.

One or more of these mobile nodes 106 may be configured to create an ad-hoc network in its immediate area based on the same or different radio access protocol used to access the WWAN 104. For example, mobile node 106 may support the UMB radio access protocol via WWAN, while providing an IEEE 802.11 access point to mobile nodes 108 that do not have direct access to WWAN. IEEE 802.11 represents a set of Wireless Local Access Networks (WLANs) developed by the IEEE 802.11 Committee for short-range communications. Although IEEE 802.11 is a common WLAN radio access protocol, other suitable protocols may be used.

A mobile node 106 that may be used to provide an access point to another mobile node 108 will be referred to herein as an "ad hoc service provider." A mobile node 108 that can use an ad hoc service provider 106 as an access point will be referred to herein as a "mobile client." The mobile node, which is an ad hoc service provider 106 or mobile client 108, may be a laptop computer, mobile phone, personal digital assistant (PDA), mobile digital audio player, mobile game console, digital camera, digital camcorder, mobile. Audio device, mobile video device, mobile multimedia device, or any other device capable of supporting at least one radio access protocol.

Ad hoc service provider 106 may extend its wireless broadband Internet access service to mobile clients 108 without internet access. The server 110 may use the "exchange" to enable mobile clients 108 to purchase unused bandwidth from ad hoc service providers 106, for example, to access the Internet via WWANs 104. ) ".

Ad hoc service provider 106, server 110, and one or more mobile clients 108 may establish a network that is an ad-hoc heterogeneous wireless network. For example, a heterogeneous wireless network may include at least two types of wireless networks (eg, WWAN and WLAN). For example, an ad-hoc network may be a network whose specific configuration may vary from moment to moment or one form of network to the next. The network configuration is not pre-planned before setting up the network. Examples of configurations for an ad-hoc network include configuration of which members exist in the network (eg, which ad hoc service provider, which server, and / or which mobile client (s) are present in the network), ad hoc Configuration for the geographic locations of the service provider and mobile client (s), and when and how long the network will be established.

For illustrative purposes only, example ad-hoc network scenarios are described below. Scenario 1: While a mobile subscriber is at the airport at 8:00 am Thursday, he turns on his mobile node (e.g. a laptop computer or mobile phone) and uses his mobile node as an ad hoc service provider while he waits for boarding You can set up an ad-hoc network for 30 minutes. The ad-hoc network may include one or more adjacent mobile clients (eg, other laptop computers or mobile phones). Scenario 2: While a mobile subscriber is in a hotel at 5 pm Wednesday, he forms another ad hoc network for 4 hours to provide the service to the same mobile clients, or different mobile clients, or a combination of both. You can use your own mobile node for this purpose. Scenario 3: At 5 pm Wednesday, different ad hoc service providers may form an ad-hoc network at the airport where the first ad hoc service provider was the day before. Since service providers and clients are mobile, the ad-hoc network may be a "mobile" network.

The server 110 may be a centralized server or a distributed server. The centralized server may be a dedicated server or integrated into another entity such as a desktop or laptop computer or mainframe. The distributed server may be distributed across multiple servers and / or one or more other entities such as laptops or computers, or mainframes. In at least one configuration, server 110 may be integrated in whole or in part with one or more ad hoc service providers.

In one configuration of the telecommunications system 100, the server 110 charges the mobile clients 108 based on usage. For users who occasionally use mobile Internet services, this may be an attractive alternative to monthly fixed fee wireless access plans. The revenue generated from the usage charge may be assigned to various entities in the telecommunications system 100 in a manner that attempts to perpetuate the vitality of the exchange. For example, some of the revenue may be distributed to ad hoc service providers, resulting in financial incentives for mobile subscribers to become ad hoc service providers. Another portion of the revenue may be distributed to reward WWAN operators for bandwidth not to be used. Another portion of the revenue may be distributed to the manufacturers of mobile nodes. The remainder of the revenue may be maintained by the server operator providing the exchange. The server 110, which may be a centralized server as shown or a distributed server comprising a plurality of servers, allocates the generated revenue from the mobile clients 108 to the various entities within the telecommunication system 100. Can be used to determine how to do this.

Server 110 may be implemented as a trusted server. Thus, the server may, for example, be based on a public key key in a Transport Layer Security (TLS) session between the server 110 and the ad hoc service provider 106, or between the server 110 and the mobile client 108. It can be authenticated using public key infrastructure (PKI) certificates. Alternatively, server 110 may be authenticated using self-signed certificates, or by some other suitable means.

Regardless of how the server 110 is authenticated, a secure session channel may be established during registration, between the server 110 and the ad hoc service provider 106, or between the server 110 and the mobile client 108. . In one configuration of the telecommunications system 100, the mobile client 108 may register with the server 110 to set up a user name and password along with payment information. Ad hoc service provider 106 may register with server 110 to notify its desire to provide a wireless access point (eg, an Internet access point) to mobile clients 108.

Server 110 may also be used to provide admission control. Admission control is the process by which the server 110 determines whether the ad hoc service provider 106 should provide services in a geographic area. Server 110 may limit the number of ad hoc service providers 106 at a given location if it is determined that additional ad hoc service providers 106 will adversely affect performance in the WWAN. Additional restrictions may be imposed by WWAN operators who may not want their mobile subscribers to provide services to a given geographic location in accordance with various network constraints.

Server 110 may also be used to manage dynamic sessions established between ad hoc service providers 106 and mobile clients 108. In one configuration of the telecommunications system 100, if the ad hoc service provider 106 is mobile and wants to provide a service, an extensible authentication protocol for connection with the server 110 initiated by the ad hoc service provider 106- Tunneled Transport Layer Security (EAP-TTLS) may be used for authentication, authorization, and accounting (AAA) and secure session establishment. EAP-TTLS may also be used for session initiation requests by the mobile client 108. In the latter case, the mobile client is a supplicant, the ad hoc service provider 106 is an authenticator, and the server 110 is an authentication server. The ad hoc service provider 106 sends the mobile client's credentials to the server 110 for EAP-AAA authentication. The EAP-TTLS authentication response from server 110 is then used to generate the master shared key. Subsequently, the link encryption key may be established between the ad hoc service provider 106 and the mobile client 108.

Additional security may be achieved using a Secure Sockets Layer Virtual Private Network (SSL VPN) tunnel between the mobile client 108 and the server 110. The SSL VPN tunnel is used to encrypt traffic routed through the ad hoc service provider 106 to provide increased privacy for the mobile client 108. Alternatively, the tunnel may be an IPsec tunnel or implemented using some other suitable tunneling protocol.

If a tunnel is established between the server 110 and the mobile client 108, various services may be provided. For example, server 110 may support audio or video services for mobile client 108. The server 110 may also support advertising services for the mobile device 108. Other functions of the server 110 include providing routing to and from the mobile client 108 content and providing network address translation to and from the network for the mobile client 108. Include.

Server 110 may also provide support for mobile client 108 handoff from one ad hoc service provider 106 to another based on any number of factors. These factors are, for example, the quality of service (QoS) required by each mobile client 108, the duration of the session required by each mobile client 108, and at the ad hoc service provider 106. May include loading, link conditions, and energy level (eg, battery life).

Server 110 may also be used to store quality metrics for each ad hoc service provider 106. This quality metric can be provided to mobile clients 108 who wish to select from available ad hoc service providers 106. This metric can be updated continuously as more information becomes available for a particular ad hoc service provider 106. The quality metric associated with each ad hoc service provider 106 may decrease or increase based on the QoS provided.

2 is a conceptual block diagram illustrating an example of the functionality of an ad hoc service provider. Ad hoc service provider 106 has the ability to bridge wireless links via homogeneous or heterogeneous radio access protocols. This can be accomplished using a WWAN network adapter 202 that supports a wireless access protocol for WWAN-to-Internet 102, and a WLAN network adapter 204 that provides a wireless access point for mobile clients 108. . For example, the WWAN network adapter 202 may include transceiver functionality to support EV-DO for Internet access through the WWAN, and the WLAN network adapter 204 may include 802.11 access for mobile clients 108. It may include transceiver functionality to provide points. Each network adapter 202, 204 may be configured to implement a physical layer by demodulating radio signals and performing other radio frequency (RF) front end processing. Each network adapter 202, 204 may also be configured to implement a data link layer by managing the transfer of data on the physical layer.

An ad hoc service provider 106 with a filtered interconnection and session monitoring module 206 is shown. The module 206 provides filtered processing of content from mobile clients such that the interconnection between ad hoc wireless links to the WWAN network interface 202 is provided only to the mobile clients 108 authenticated by the server. do. Module 206 also serves to monitor sessions between the server and authorized mobile clients 108.

An ad hoc service provider 106 is shown having a filtered interconnection and session monitoring module 306. The module 306 allows mobile clients 108 such that the interconnection between ad-hoc wireless links to the WWAN network interface 302 is provided only to mobile clients 108 authorized and authenticated by the server to use the WWAN network. Provides filtered processing of content from. The module 306 also maintains a tunneled connection between the server and authenticated mobile clients 108.

In addition, ad hoc service provider 106 may (1) enable module 306 to provide ad hoc services to mobile clients 108, and (2) WWAN to a mobile subscriber or user of ad hoc service provider 106. Or a service provider application 308 that supports Internet access. The latter function is supported by the user interface 310 which communicates with the WWAN network adapter 302 via the module 306 under the control of the service provider application 308. The user interface 312 may be a keypad, display, speaker, microphone, joystick, and / or any other user interface devices that allow a mobile subscriber or user to access the WWAN 104 or the Internet 102 (see FIG. 1). Combinations.

As discussed above, the service provider application 308 may also cause the module 306 to supply ad hoc services to the mobile clients 108. The service provider application 308 maintains a session with the server 110 to exchange custom messages with the server. In addition, the service provider application 308 also maintains a separate session with each mobile client 108 to exchange messages on demand between the service provider application 308 and the mobile client 108. The service provider application 308 provides information about authenticated and authorized clients to the filtered interconnection and session monitoring module 306. The filtered interconnection and session monitoring module 308 only allows content flow for authorized and authorized mobile clients 108. The filtered interconnection and session monitoring module 306 also relates to content flows associated with mobile clients 108 outbound from and inbound to mobile clients, and for WWAN and WLAN. Optionally monitor information about network resource usage and available bandwidths on wireless channels. The filtered interconnection and session monitoring module 306 may additionally and optionally provide the information to the service provider application 308. The service provider application 308 may optionally operate on the information and take appropriate actions, such as determining whether to continue to maintain connectivity with the mobile clients 108 and the server, or to continue providing service. have. It should be noted that the functions described in modules 306 and 308 may be implemented on any given platform within one or multiple sets of modules that adjust to provide the functionality at ad hoc service provider 106.

If the ad hoc service provider 106 decides to provide these services, the service provider application 208 sends a request to the server 110 for an approval. The service provider application 208 requests authentication from the server 110 and approval from the server 110 to provide a service to one or more mobile clients 108. The server 110 may authenticate the ad hoc service provider 106 and then determine whether to grant the ad hoc service provider's request. As discussed above, the request may be rejected if the number of ad hoc service providers in the same geographic location is too large or if the WWAN operator imposes specific constraints on the ad hoc service provider 106.

Once the ad hoc service provider 106 has been authenticated, the service provider application 208 may determine the ad-hoc WLAN service set identifier (SSID), service cost, service duration, availability of the ad hoc service provider, and quality metrics for the ad hoc service provider. The same service information can be advertised. Service provider application 208 may also prompt changes to the advertised service information as conditions vary. Mobile clients 108 of interest may be associated with the SSID to access the ad hoc service provider 106. The service provider application 208 can then route authentication messages with the server 110 between the mobile clients 108 and, when authenticated, the filtered mutual to connect the mobile clients 108 to the server. The connection and session monitoring module 206 can be configured. During authentication of the mobile client 108, the service provider application 208, 106 may use an unsecured wireless link.

The service provider application 208, 106 may optionally choose to move the mobile client 108 to the new SSID using a secure link once the mobile client 108 is authenticated. In such situations, the service provider application 208, 106 may distribute the time spent in each SSID according to the load that must support existing sessions with the mobile clients 108.

The service provider application 308 may also determine whether it can support the mobile client 108 before allowing the mobile client 108 to access the network. The resource intelligence used to estimate battery power drain, QoS requirements, bandwidth requirements, latency requirements, processing requirements, and network access time required can be determined by the service provider application 308 as a new mobile client. Assistance in determining whether to support 108 or to consider accepting the handoff of the mobile client 108 from another ad hoc service provider 106.

The service provider application 208 may accept the mobile clients 108 and provide them with specific QoS guarantees, such as the average bandwidth expected during the session. Average throughput provided to each mobile client 108 through the time window can be monitored. The service provider application 208, 106 ensures that the resource usage by the mobile clients 108 is below a certain threshold and that it meets the QoS requirements agreed to provide to the mobile clients 108 during session establishment. To do this, you can monitor the throughputs for all flows through it.

The service provider application 208 may also provide a particular level of security to the wireless access point by routing the content through a filtered interconnection and session monitoring module 206 that cannot decrypt the content. Similarly, service provider applications 208 and 106 are configured to ensure that content routed between user interface 210 and WWAN 104 via module 206 cannot be decrypted by mobile clients 108. Can be. The service provider application 208 may use any suitable encryption technique to implement this functionality.

The service provider application 208, 106 may also maintain a time period during which the mobile client 108 accesses the network. The time period may be agreed between the service provider application 208 and the mobile client 108 during the initiation of the session. If the service provider application 208 determines that it cannot provide the mobile client 108 with access to the network for an agreed period of time, then the service provider application 208 does not have its disabled for both the server and the mobile client 108. Notify about availability. This may occur due to energy constraints (eg, low battery), or other unpredictable events. The server may then consider handoff of the mobile client to that ad hoc service provider if there is another ad hoc service provider in the vicinity of the mobile client 108. The service provider applications 208, 106 may support handoff of the mobile client 108.

The service provider application 208 may also dedicate processing resources to maintain a wireless link or limited session with the mobile clients 108 served by other ad hoc service providers. These mobile clients 108 may be pre-authenticated by routing authentication messages to and from the server. This may facilitate handoff of mobile clients 108 to ad hoc service provider 106.

The service provider application 308 may generally manage the mobile client 108, and specifically the session, via the user interface 310. Alternatively, the service provider application 308 may support a seamless mode of operation dedicated to servicing mobile clients 108 with processing resources. In this way, mobile client 108 is managed in a manner transparent to the mobile subscriber. The seamless mode of operation may be required if the mobile subscriber does not want to be managed mobile clients 108 but wishes to continue generating revenue by sharing bandwidth with the mobile clients 108.

Although not shown, ad hoc service provider 106 may also include a server application. The server application can be used to allow the ad hoc service provider 106 to function as a server for authenticating mobile clients 108.

3 is a conceptual block diagram illustrating an example of a hardware configuration for an ad hoc service provider. Ad hoc service provider 106 is shown with WLAN transceiver 302, WWAN transceiver 304, and processing system 306. For example, WLAN transceiver 302 may be used to implement the analog portion of the physical layer for WLAN network adapter 202 (see FIG. 2), and WWAN transceiver 304 may be WWAN network adapter 204 (see FIG. 2). Can be used to implement the analog portion of the physical layer.

The processing system 306 may be used to implement the digital processing portions of the physical and link layers, for the WLAN and WWAN network adapters 202 and 204 (see FIG. 2). Processing system 306 may also be used to implement filtered interconnect session monitoring module 206 and service provider application 208 (see FIG. 2).

Processing system 306 may be implemented using software, hardware, or a combination of both. For example, the processing system 306 may be implemented with one or more processors. Processors include general purpose microprocessors, microcontrollers, digital signal processors (DSPs), application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), programmable logic devices (PLDs), controllers, state machines, gated logic, discrete Hardware components, or any other suitable entity capable of performing calculations or other information manipulations. Processing system 306 may include one or more machine-readable media for storing software. Software will be construed broadly to mean instructions, data, or any combination thereof that may be referred to as software, firmware, middleware, microcode, hardware description language, or some other terminology. The instructions may comprise code (eg, a source code format, a binary code format, an executable code format, or any other suitable code format).

The machine-readable medium may include storage integrated into the processor, for example, when using an ASIC. Machine-readable media can also be stored outside of the processor, such as random access memory (RAM), flash memory, read only memory (ROM), programmable read-only memory (PROM), erasable PROM (EPROM). , Registers, hard disk, removable disk, CD-ROM, DVD, or any other suitable storage device. In addition, the machine-readable medium may include a transmission line or a carrier wave that encodes a data signal. Those skilled in the art will recognize how to best implement the described functionality for the processing system 306.

4 is a conceptual block diagram illustrating an example of the functionality of a processing system in an ad hoc service provider. Ad hoc service provider 106 is shown with user interface 212 and processing system 306. The processing system 306 includes a module 402 for allowing a user to wirelessly access the network through a user interface, and a module 404 for providing a wireless access point to the network for mobile clients authenticated by the server. Include.

Returning now to the mobile client of FIG. 1, the TLS session can be used by the mobile client 108 to register with the server 110. Once registered, the mobile client 108 can search for available ad hoc service providers 106. If the mobile client 108 detects the presence of one or more ad hoc service providers 106, it is available bandwidth that the ad hoc service provider 106 can support, the QoS metric of the ad hoc service provider 106, and the advertised service. A session may be initiated using EAP-TTLS via ad hoc service provider 106 based on parameters such as cost. As described above, the link encryption key may be established between the mobile client 108 and the ad hoc service provider 106 during the establishment of the session. An SSL VPN session can be established between the mobile client 108 and the server 110 so that all traffic between the two is encrypted. The transport layer ports may remain open and may not be encrypted to provide visibility into network address translation functionality at the ad hoc service provider 106.

Handoff of mobile client 108 may be performed in a variety of ways. In one configuration, mobile client 108 may maintain a limited session with multiple ad hoc service providers 106 while using one ad hoc service provider 106 to access the Internet. As discussed previously, this approach may facilitate the handoff process. In one alternative configuration, mobile client 108 may only consider handoff when needed. In this configuration, the mobile client 108 may maintain an active list of ad hoc service providers 106 in its immediate area for handoff. The mobile client 108 may select an ad hoc service provider 106 for handoff from the active list if the current ad hoc service provider 106 requests to discontinue its service. If handoff is not possible, the mobile client 108 will need to reconnect through a different ad hoc service provider 106 to access the internet.

If the required bandwidth of the mobile client 108 is greater than the capacities of the available ad hoc service providers 106, the mobile client 108 can access multiple ad hoc service providers 106 simultaneously. A mobile client 108 with multiple transceivers can potentially access multiple ad hoc service providers 106 simultaneously using a different transceiver for each ad hoc service provider 106 simultaneously. Different channels may be used if the same radio access protocol can be used to access multiple ad hoc service providers 106. If the mobile client 108 has only one available transceiver, it can distribute the time spent accessing each ad hoc service provider 106.

Those skilled in the art will appreciate that various example blocks, modules, elements, components, methods, and algorithms described herein may be implemented as electronic hardware, computer software, or a combination of both. To illustrate this compatibility of hardware and software, various illustrative blocks, modules, elements, components, methods, and algorithms have been described above generally in terms of their functionality. Whether such functionality is implemented in hardware or software depends upon the particular application and design constraints imposed on the overall system. Those skilled in the art can implement the functionality described above in a variable manner for each particular application.

It is understood that the specific order or hierarchy of steps in the processes disclosed is an example. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the processes may be rearranged. The accompanying method claims present elements of the various steps in a sample order, and are not meant to be limited to the specific order or hierarchy provided.

The previous descriptions are provided to enable any person skilled in the art to implement the various aspects described herein. Various modifications to these aspects will be apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects. Accordingly, the claims are not intended to be limited to the aspects presented herein but are to be accorded the full scope consistent with the language claims, wherein references to the singular element are "one and one" unless specifically stated. It is intended to mean "one or more" rather than "one and only one". Unless specifically stated otherwise, the term “some” refers to one or more. Male pronouns (eg, his) include females and neutrals (eg, her and its), and vice versa. All structural and functional equivalents to the elements of the various aspects that are known to one of ordinary skill in the art or that will be described later throughout this specification are expressly incorporated herein by reference and are intended to be included in the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is explicitly recited in the claims. Unless any claim element is explicitly quoted using the phrase "means for" or, if it is a method claim, quoted using U.S.C. It should not be interpreted under §112 para. 35, paragraph 6.

Claims (100)

As an adhoc service provider,
User interface; And
Enable the user to wirelessly access the network through the user interface, provide a wireless client with the mobile client authenticated by a remote server, and provide a service estimate on the network with the mobile client. A processing system configured to advertise service information defining < RTI ID = 0.0 >) and < / RTI >
Ad hoc service provider. The method of claim 1,
The processing system is further configured to route authentication messages between the mobile client and the server to support authentication of the mobile client,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to maintain a wireless link with another mobile client,
The wireless link is maintained to facilitate handoff of the another mobile client to another ad hoc service provider.
Ad hoc service provider. The method of claim 3,
The processing system is further configured to route authentication messages between the mobile client and the server to pre-authenticate the another mobile client prior to handoff.
Ad hoc service provider. The method of claim 1,
The processing system is further configured to support an unsecured wireless link with the mobile client during authentication, and to move the mobile client to a secure wireless link after the mobile client is authenticated.
Ad hoc service provider. The method of claim 1,
The processing system is further configured to broadcast service information from the wireless access point,
Ad hoc service provider. The method of claim 6,
The service information includes a service cost, service duration, identity of the ad hoc service provider, availability of the ad hoc service provider, and a quality metric for the ad hoc service provider,
Ad hoc service provider. The method of claim 6,
The processing system is further configured to dynamically change the service information,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to provide the wireless access point by providing an interconnection between a first wireless access protocol with the mobile client and a second wireless access protocol with the network,
Ad hoc service provider. 10. The method of claim 9,
The first radio access protocol is different from the second radio access protocol,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to support a plurality of different radio access protocols for the network,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to provide a wireless access point for the network with one or more additional mobile clients authenticated by the server,
Ad hoc service provider. The method of claim 12,
The processing system is further configured to support a plurality of different radio access protocols for the mobile client and the one or more additional mobile clients,
Ad hoc service provider. The method of claim 12,
The processing system further includes a filter configured to ensure that only the mobile client and the one or more additional mobile clients authenticated by the server are provided access to the network via the wireless access point;
Ad hoc service provider. 15. The method of claim 14,
The filter is further configured to manage an amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server,
Ad hoc service provider. 15. The method of claim 14,
The filter is further configured to manage the amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server based on priority;
Ad hoc service provider. The method of claim 1,
The processing system is further configured to determine whether to provide a service to the mobile client before providing the mobile client with access to the network;
Ad hoc service provider. 18. The method of claim 17,
Whether the processing system can provide service to the mobile client based on quality of service requirements, bandwidth requirements, latency requirements, processing requirements, battery usage requirements, or network access time required Further configured to determine,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to negotiate the network access time required for the mobile client,
If the processing system further determines that the network access time required for the mobile client can no longer support, the processing system is further configured to notify the mobile client and the server,
Ad hoc service provider. 20. The method of claim 19,
The processing system is further configured to support handoff of the mobile client to another ad hoc service provider after notifying the mobile client server that it can no longer support the network access time required for the mobile client,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to route the data between the user interface and the network such that a mobile client cannot decrypt the data;
Ad hoc service provider. The method of claim 1,
The processing system is configured to route the data between the server and the mobile clients such that the data cannot be decrypted;
Ad hoc service provider. The method of claim 1,
The processing system is further configured to allow the user to manage the mobile client through the user interface,
Ad hoc service provider. The method of claim 1,
The processing system is further configured to manage the mobile client via the user interface,
Ad hoc service provider. The method of claim 1,
The processing system further comprises a server for authenticating the mobile client,
Ad hoc service provider. As an ad hoc service provider,
User interface;
Means for enabling a user to wirelessly access a network through the user interface;
Means for providing a wireless access point for the network to a mobile client authenticated by a remote server;
Means for advertising to the mobile client service information defining service estimates on the network; And
Means for monitoring resource utilization associated with the mobile client;
Ad hoc service provider. The method of claim 26,
Means for routing authentication messages between the mobile client and the server to support authentication of the mobile client,
Ad hoc service provider. The method of claim 26,
Means for maintaining a wireless link with another mobile client,
The wireless link is maintained to facilitate handoff of the another mobile client to another ad hoc service provider,
Ad hoc service provider. 29. The method of claim 28,
Means for routing authentication messages between the mobile client and the server to pre-authenticate the another mobile client prior to handoff.
Ad hoc service provider. The method of claim 26,
Means for supporting an unsecured wireless link with the mobile client during authentication and means for moving the mobile client to a secured wireless link after the mobile client is authenticated,
Ad hoc service provider. The method of claim 26,
Means for broadcasting service information from the wireless access point,
Ad hoc service provider. 32. The method of claim 31,
The service information includes a service cost, service duration, identity of the ad hoc service provider, availability of the ad hoc service provider, and a quality metric for the ad hoc service provider,
Ad hoc service provider. 32. The method of claim 31,
Means for dynamically changing the service information,
Ad hoc service provider. The method of claim 26,
Means for providing a wireless access point for the network further comprises means for providing an interconnection between a first wireless access protocol with the mobile client and a second wireless access protocol with the network,
Ad hoc service provider. 35. The method of claim 34,
The first radio access protocol is different from the second radio access protocol,
Ad hoc service provider. The method of claim 26,
Means for supporting a plurality of different radio access protocols for the network,
Ad hoc service provider. The method of claim 26,
Means for providing a wireless access point for the network with one or more additional mobile clients authenticated by the server,
Ad hoc service provider. 39. The method of claim 37,
Means for supporting a plurality of different radio access protocols for the mobile client and the one or more additional mobile clients,
Ad hoc service provider. 39. The method of claim 37,
Means for providing a wireless access point for the network include means for ensuring that only the mobile client and the one or more additional mobile clients authenticated by the server are provided access to the network via the wireless access point. Including more,
Ad hoc service provider. 40. The method of claim 39,
Means for managing the amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server,
Ad hoc service provider. 40. The method of claim 39,
Means for managing the amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server based on priority;
Ad hoc service provider. The method of claim 26,
Means for determining whether to provide a service to the mobile client before providing access to the network to the mobile client;
Ad hoc service provider. 43. The method of claim 42,
Means for determining whether to provide service to the mobile client may be based on quality of service requirements, bandwidth requirements, latency requirements, processing requirements, battery usage requirements, or required network access time. Based,
Ad hoc service provider. The method of claim 26,
Means for negotiating a network access time required for the mobile client, and means for notifying the mobile client and the server if the network access time required for the mobile client can no longer be supported. Including more;
Ad hoc service provider. The method of claim 44,
Means for supporting handoff of the mobile client to another ad hoc service provider after notifying the mobile client and server that it can no longer support the network access time required for the mobile client,
Ad hoc service provider. The method of claim 26,
Means for routing data between the user interface and the network such that a mobile client cannot decrypt the data;
Ad hoc service provider. The method of claim 26,
Means for routing the data between the server and the mobile clients such that the data cannot be decrypted;
Ad hoc service provider. The method of claim 26,
Means for enabling the user to manage the mobile client through the user interface;
Ad hoc service provider. The method of claim 26,
Means for managing the mobile client via the user interface,
Ad hoc service provider. The method of claim 26,
Further comprising a server for authenticating the mobile client,
Ad hoc service provider. A method of providing a service from an ad hoc service provider having a user interface,
Enabling a user to wirelessly access a network through the user interface;
Providing a wireless access point for the network to a mobile client authenticated by a remote server;
Advertising service information to the mobile client defining service estimates on the network; And
Monitoring resource utilization associated with the mobile client;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Routing authentication messages between the mobile client and the server to support authentication of the mobile client,
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Maintaining a wireless link with another mobile client,
The wireless link is maintained to facilitate handoff of the another mobile client to another ad hoc service provider.
How to provide a service from an ad hoc service provider. 54. The method of claim 53,
Further comprising routing authentication messages between the mobile client and the server to pre-authenticate the another mobile client prior to handoff.
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Supporting an unsecured wireless link with the mobile client during authentication, and moving the mobile client to a secure wireless link after the mobile client is authenticated,
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Further comprising broadcasting service information from the wireless access point,
How to provide a service from an ad hoc service provider. 57. The method of claim 56,
The service information includes a service cost, service duration, the identity of the ad hoc service provider, the availability of the ad hoc service provider, and a quality metric for the ad hoc service provider,
How to provide a service from an ad hoc service provider. 57. The method of claim 56,
Dynamically changing the service information;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Providing a wireless access point for the network further includes providing an interconnection between a first wireless access protocol with the mobile client and a second wireless access protocol with the network.
How to provide a service from an ad hoc service provider. 60. The method of claim 59,
The first radio access protocol is different from the second radio access protocol,
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Further comprising supporting a plurality of different radio access protocols for the network;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Providing a wireless access point for the network with one or more additional mobile clients authenticated by the server,
How to provide a service from an ad hoc service provider. 63. The method of claim 62,
Supporting a plurality of different radio access protocols for the mobile client and the one or more additional mobile clients,
How to provide a service from an ad hoc service provider. 63. The method of claim 62,
Providing a wireless access point for the network further includes ensuring that only the mobile client and the one or more additional mobile clients authenticated by the server are provided access to the network via the wireless access point. doing,
How to provide a service from an ad hoc service provider. 65. The method of claim 64,
Managing the amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server,
How to provide a service from an ad hoc service provider. 65. The method of claim 64,
Managing the amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server based on priority;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Determining whether to provide a service to the mobile client before providing access to the network to the mobile client;
How to provide a service from an ad hoc service provider. 68. The method of claim 67,
Determining whether or not a service can be provided to the mobile client is based on quality of service requirements, bandwidth requirements, latency requirements, processing requirements, battery usage requirements, or network access time required. doing,
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Negotiating a network access time required for the mobile client, and
Notifying the mobile client and the server when the network access time required for the mobile client can no longer be supported;
How to provide a service from an ad hoc service provider. 70. The method of claim 69,
Supporting handoff of the mobile client to another ad hoc service provider after notifying the mobile client and server that it can no longer support the network access time required for the mobile client,
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Routing the data between the user interface and the network such that a mobile client cannot decrypt the data;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Further comprising routing the data between the server and the mobile clients such that the data cannot be decrypted.
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Enabling the user to manage the mobile client through the user interface;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Managing the mobile client via the user interface;
How to provide a service from an ad hoc service provider. 52. The method of claim 51,
Providing a server for authenticating the mobile client,
How to provide a service from an ad hoc service provider. A machine-readable medium comprising instructions executable by a processing system in an ad hoc service provider having a user interface,
The instructions,
Code for enabling a user to wirelessly access a network through the user interface;
Code for providing a wireless access point for the network to a mobile client authenticated by a remote server;
Code for advertising service information defining service estimates on the network to the mobile client; And
A code for monitoring resource utilization associated with the mobile client,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for routing authentication messages between the mobile client and the server to support authentication of the mobile client,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for maintaining a wireless link with another mobile client,
The wireless link is maintained to facilitate handoff of the another mobile client to the another ad hoc service provider,
Machine-readable medium. 79. The method of claim 78,
The instructions further comprise code for routing authentication messages between the mobile client and the server to pre-authenticate another mobile client prior to handoff.
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for supporting an unsecured wireless link with the mobile client during authentication, and code for moving the mobile client to a secure wireless link after the mobile client is authenticated,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for broadcasting service information from the wireless access point,
Machine-readable medium. 82. The method of claim 81 wherein
The service information includes service cost, service duration, identity of the ad hoc service provider, availability of the ad hoc service provider, and quality metrics for the ad hoc service provider,
Machine-readable medium. 82. The method of claim 81 wherein
The instructions further comprise code for dynamically changing the service information,
Machine-readable medium. 80. The method of claim 76,
Code for providing a wireless access point for the network further includes code for providing an interconnection between a first wireless access protocol with the mobile client and a second wireless access protocol with the network,
Machine-readable medium. 85. The method of claim 84,
The first radio access protocol is different from the second radio access protocol,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for supporting a plurality of different radio access protocols for the network,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for providing a wireless access point for the network to one or more additional mobile clients authenticated by the server,
Machine-readable medium. 88. The method of claim 87 wherein
The instructions further comprise code for supporting a plurality of different radio access protocols for the mobile client and the one or more additional mobile clients.
Machine-readable medium. 88. The method of claim 87 wherein
Code for providing a wireless access point for the network includes code for ensuring that access to the network through the wireless access point is provided only to the mobile client and the one or more additional mobile clients authenticated by the server. Including more,
Machine-readable medium. 91. The method of claim 89 wherein
The instructions further comprise code for managing an amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server,
Machine-readable medium. 91. The method of claim 89 wherein
The instructions further comprise code for managing an amount of content transmitted via the wireless access point for each of the mobile client and the one or more additional mobile clients authenticated by the server based on priority.
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for determining whether to provide a service to the mobile client before providing access to the network to the mobile client.
Machine-readable medium. 92. The method of claim 92,
Code for determining whether to provide service to the mobile client is based on quality of service requirements, bandwidth requirements, latency requirements, processing requirements, battery usage requirements, or network access time required. To make decisions,
Machine-readable medium. 80. The method of claim 76,
The instructions include code for negotiating a network access time required for the mobile client, and code for notifying the mobile client and the server when the network access time required for the mobile client is no longer supported. Including more,
Machine-readable medium. 95. The method of claim 94,
The instructions may include code to support handoff of the mobile client to another ad hoc service provider after notifying the mobile client and the server that the network access time required for the mobile client is no longer supported. Including more,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for routing the data between the user interface and the network such that a mobile client cannot decrypt the data.
Machine-readable medium. 80. The method of claim 76,
The instructions are configured to route the data between a server and mobile clients such that the data cannot be decrypted.
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for enabling the user to manage the mobile client through the user interface.
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for managing the mobile client via the user interface,
Machine-readable medium. 80. The method of claim 76,
The instructions further comprise code for providing a server for authenticating the mobile client,
Machine-readable medium.

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